Data processing systems for fulfilling data subject access requests and related methods

ABSTRACT

Various Data Subject Access Request (DSAR) processing systems are adapted for presenting a first webform on a first web site, the first webform being adapted to receive DSAR&#39;s and to route the requests to a first designated individual for processing; presenting a second webform on a second web site, the second webform being adapted to receive DSAR&#39;s and to route the requests to a second designated individual for processing; receiving, via the first webform, a first DSAR; at least partially in response to the receiving the first DSAR, automatically routing the first DSAR to the first designated individual for handling; receiving, via the second webform, a second DSAR; at least partially in response to the receiving the second DSAR, automatically routing the second DSAR to the second designated individual for handling; and communicating a status of both the first DSAR and the second DSAR via a single user interface.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent application Ser. No. 17/722,643, filed Apr. 18, 2022, which is a continuation-in-part of U.S. patent application Ser. No. 16/908,081, filed Jun. 22, 2020, now U.S. Pat. No. 11,308,435, issued Apr. 19, 2022, which is a continuation of U.S. patent application Ser. No. 16/714,355, filed Dec. 13, 2019, now U.S. Pat. No. 10,692,033, issued Jun. 23, 2020, which is a continuation of U.S. patent application Ser. No. 16/403,358, filed May 3, 2019, now U.S. Pat. No. 10,510,031, issued Dec. 17, 2019, which is a continuation of U.S. patent application Ser. No. 16/159,634, filed Oct. 13, 2018, now U.S. Pat. No. 10,282,692, issued May 7, 2019, which claims priority from U.S. Provisional Patent Application Ser. No. 62/572,096, filed Oct. 13, 2017 and U.S. Provisional Patent Application Ser. No. 62/728,435, filed Sep. 7, 2018, and is also a continuation-in-part of U.S. patent application Ser. No. 16/055,083, filed Aug. 4, 2018, now U.S. Pat. No. 10,289,870, issued May 14, 2019, which claims priority from U.S. Provisional Patent Application Ser. No. 62/547,530, filed Aug. 18, 2017, and is also a continuation-in-part of U.S. patent application Ser. No. 15/996,208, filed Jun. 1, 2018, now U.S. Pat. No. 10,181,051, issued Jan. 15, 2019, which claims priority from U.S. Provisional Patent Application Ser. No. 62/537,839, filed Jul. 27, 2017, and is also a continuation-in-part of U.S. patent application Ser. No. 15/853,674, filed Dec. 22, 2017, now U.S. Pat. No. 10,019,597, issued Jul. 10, 2018, which claims priority from U.S. Provisional Patent Application Ser. No. 62/541,613, filed Aug. 4, 2017, and is also a continuation-in-part of U.S. patent application Ser. No. 15/619,455, filed Jun. 10, 2017, now U.S. Pat. No. 9,851,966, issued Dec. 26, 2017, which is a continuation-in-part of U.S. patent application Ser. No. 15/254,901, filed Sep. 1, 2016, now U.S. Pat. No. 9,729,583, issued Aug. 8, 2017, which claims priority from: (1) U.S. Provisional Patent Application Ser. No. 62/360,123, filed Jul. 8, 2016; (2) U.S. Provisional Patent Application Ser. No. 62/353,802, filed Jun. 23, 2016; and (3) U.S. Provisional Patent Application Ser. No. 62/348,695, filed Jun. 10, 2016. The disclosures of all of the above patent applications are hereby incorporated herein by reference in their entirety.

BACKGROUND

Over the past years, privacy and security policies, and related operations have become increasingly important. Breaches in security, leading to the unauthorized access of personal data (which may include sensitive personal data) have become more frequent among companies and other organizations of all sizes. Such personal data may include, but is not limited to, personally identifiable information (PII), which may be information that directly (or indirectly) identifies an individual or entity. Examples of PII include names, addresses, dates of birth, social security numbers, and biometric identifiers such as a person's fingerprints or picture. Other personal data may include, for example, customers' Internet browsing habits, purchase history, and even their preferences (e.g., likes and dislikes, as provided or obtained through social media).

Many organizations that obtain, use, and transfer personal data, including sensitive personal data, have begun to address these privacy and security issues. To manage personal data, many companies have attempted to implement operational policies and processes that comply with legal and organizations, or other entities) with certain rights related to the data subject's personal data that is collected, stored, or otherwise processed by an organization. These rights may include, for example, a right to obtain confirmation of whether a particular organization is processing their personal data, a right to obtain information about the purpose of the processing (e.g., one or more reasons for which the personal data was collected), and other such rights. Some regulations require organizations to comply with requests for such information (e.g., Data Subject Access Requests) within relatively short periods of time (e.g., 30 days).

Existing systems for complying with such requests can be inadequate for producing and providing the required information within the required timelines. This is especially the case for large corporations, which may store data on several different platforms in differing locations. Accordingly, there is a need for improved systems and methods for complying with data subject access requests.

SUMMARY

Various aspects of the present invention provide methods, apparatus, systems, computing devices, computing entities, and/or the like for versioning a graph for a graph database. In accordance with one aspect, a method is provided. In various aspects, the method comprises: (1) providing, by computing hardware, a query interface that is accessible via a first data network and is configured for querying a plurality of data storage systems included in a second data network; (2) receiving, by the computing hardware via the query interface and the first data network, a query comprising a data subject access request; (3) responsive to receiving the data subject access request, obtaining, by the computing hardware, metadata regarding at least one of a data subject identified by the data subject access request or the data subject access request; (4) using, by the computing hardware, the metadata to determine whether a priority of the data subject access request should be adjusted based on the metadata; (5) responsive to determining that the priority of the data subject access request should be adjusted based on the metadata, adjusting, by the computing hardware, the priority of the data subject access request; and (6) facilitating, by the computing hardware, execution of processing operations or network communication for retrieving data responsive to the data subject access request from the plurality of data storage systems in the second data network according to the priority.

In some aspects, the method further comprises: (1) identifying, by the computing hardware based on the metadata, a processing deadline constraint for the data subject access request; and (2) modifying, by the computing hardware, the priority such that the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in a manner that satisfies the processing deadline constraint. In particular aspects, the metadata comprises at least one of a type of the data subject access request, a location of a computing device from which the data subject access request was received, or a status of the data subject. In some aspects, adjusting the priority of the data subject access request comprises facilitating modification of a timing of the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request.

In various aspects, the method further comprises: (1) identifying, by the computing hardware based on the metadata, an identity verification constraint for processing the data subject access request; and (2) determining, by the computing hardware based on identifying information associated with the data subject, whether the data subject access request satisfies the identity verification constraint. In such aspects, facilitating the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request may occur in response to determining that the data subject access request satisfies the identify verification constraint. In particular aspects, the method further comprises (1) generating, by the computing hardware, a graphical user interface and configuring the graphical user interface to include a display element that includes an indication of an adjustment to the priority of the data subject access request; and (2) providing, by the computing hardware, the graphical user interface for display on a computing device.

In accordance with various aspects, a system is provided comprising a non-transitory computer-readable medium storing instructions and a processing device communicatively coupled to the non-transitory computer-readable medium. The processing device is configured to execute the instructions and thereby perform operations comprising: (1) providing a query interface that is accessible via a first data network and is configured for querying a plurality of data storage systems included in a second data network; (2) receiving, via the query interface and the first data network, a plurality of queries, the plurality of queries including a set of data subject access requests; (3) obtaining, metadata for each data subject access request in the set of data subject access requests; (4) determining, based on the metadata, a fulfillment prioritization for the set of data subject access requests; and (5) executing processing operations or network communication for retrieving data responsive to each data subject access request in the set of data subject access requests from the plurality of data storage systems in the second data network according to the fulfillment prioritization.

In some aspects, the operations further comprise identifying, for each data subject access request in the set of data subject access requests, a respective fulminant constraint. In other aspects, the operations further comprise determining the fulfillment prioritization for the set of data subject access requests comprises determining the fulfillment prioritization such that the respective fulminant constraint is satisfied when executing the processing operations or the network communication for retrieving the data responsive to each data subject access request in the set of data subject access requests from the plurality of data storage systems in the second data network according to the fulfillment prioritization. In some aspects, each fulfillment constraint comprises at least one of a processing deadline constraint or an identity verification constraint.

In a particular aspect, metadata comprises at least one of a type of each data subject access request in the set of data subject access request, a location of each respective computing device from which the plurality of queries were received, or a respective status of each data subject identified by each data subject access request in the set of data subject access requests. In various aspects, determining the fulfillment prioritization for the set of data subject access requests comprises determining the fulfillment prioritization based on computing resources available on the second data network. In particular aspects, executing the processing operations or the network communication for retrieving the data responsive to each data subject access request in the set of data subject access requests from the plurality of data storage systems in the second data network according to the fulfillment prioritization comprises timing the execution of the processing operations or the network communication based on the fulfillment prioritization and the computing resources available on the second data network. In some aspects, the operations further comprise: (1) generating a graphical user interface and configuring the graphical user interface to include a display element that includes an indication of the fulfillment prioritization for the set of data subject access requests; and (2) providing the graphical user interface for display on a computing device.

Various aspects of the present invention provide methods, apparatus, systems, computing devices, computing entities, and/or the like for versioning a graph for a graph database. In accordance with one aspect, a method is provided. In various aspects, the method comprises: (1) receiving, by computing hardware, a data subject access request; (2) in response to receiving the data subject access request, obtaining, by the computing hardware, metadata regarding a data subject of the data subject access request; (3) determining, by the computing hardware, whether a priority of the data subject access request should be adjusted based on the metadata; (4) in response to determining that the priority of the data subject access request should be adjusted based on the metadata, adjusting, by the computing hardware, the priority of the data subject access request; and (5) facilitating, by the computing hardware, execution of processing operations or network communication for retrieving data responsive to the data subject access request from a plurality of data storage systems according to the priority.

In some aspects, the metadata comprises at least one of a type of the data subject access request, a location of a computing device from which the data subject access request was received, or a status of the data subject. In particular aspects, the method further comprises: (1) identifying, by the computing hardware based on the metadata, a processing deadline constraint for the data subject access request; and (2) modifying, by the computing hardware, the priority such that the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in a manner that satisfies the processing deadline constraint.

In various aspects, the method further comprises: (1) identifying, by the computing hardware based on the metadata, an identity verification constraint for processing the data subject access request; and (2) determining, by the computing hardware based on identifying information associated with the data subject, whether the data subject access request satisfies the identity verification constraint. In such aspects, facilitating the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in response to determining that the data subject access request satisfies the identify verification constraint.

In a particular aspect, adjusting the priority of the data subject access request comprises facilitating modification of a timing of the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request relative to second processing operations or second network communication for retrieving second data response to a second data subject access request. In some aspects, the method further comprises: (1) generating, by the computing hardware, a graphical user interface and configuring the graphical user interface to include a display element that includes an indication of an adjustment to the priority of the data subject access request; and (2) providing, by the computing hardware, the graphical user interface for display on a computing device.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments of a data subject access request fulfillment system are described below. In the course of this description, reference will be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:

FIG. 1 depicts a data subject request processing and fulfillment system according to particular embodiments.

FIG. 2A is a schematic diagram of a computer (such as the data model generation server 110, or data model population server 120 of FIG. 1 ) that is suitable for use in various embodiments of the data subject request processing and fulfillment system shown in FIG. 1 .

FIG. 2B is a flow chart depicting exemplary steps executed by a Data Subject Access Request Routing Module according to a particular embodiment.

FIGS. 3-43 are computer screen shots that demonstrate the operation of various embodiments.

FIGS. 44-49 depict various exemplary screen displays and user interfaces that a user of various embodiments of the system may encounter (FIGS. 47 and 48 collectively show four different views of a Data Subject Request Queue).

DETAILED DESCRIPTION

Various embodiments now will be described more fully hereinafter with reference to the accompanying drawings. It should be understood that the invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.

Overview

Many entities handling (e.g., collecting, receiving, transmitting, storing, processing, sharing, and/or the like) certain types of data, which may be associated with multiple data assets found within multiple computing systems, may be tasked with performing actions on the data that involve having to locate the data over the multiple data assets. A particular technical challenge related to performing these actions on the data includes leveraging a limited number of computing resources (e.g., processing power, storage, network bandwidth, etc.) that are available to meet the demands of servicing requests requiring identification of the data over multiple computing systems, while still satisfying other processing constraints related to those request (e.g., processing deadlines, prioritization, etc.).

As the quantity of data increases over time, and/or as the number of data assets and computing systems that may be potentially handling the data increases, determining where particular data has been stored (e.g., collected, received, transmitted, processed, shared, and/or the like) across all of the potential data assets, computing systems, data processing activities, and/or the like can be difficult. Additionally, discovering particular data (e.g., target data) across multiple data assets, computing systems, and/or the like may become even more challenging when each of the data assets, systems, data processing activities, and/or the like use their own, possibly unique, process or format for storing data. That is to say, where different file formats, attributes, procedures, techniques, and/or the like of storing target data are used across multiple computing systems, data sources, and/or the like, locating specific data, especially specific target data associated with a particular individual, may not be feasible by simply using a common mechanism for all the different systems.

Additionally, providing data responsive to one or more queries related to that data (e.g., when an individual entitled to the data responsive to the one or more queries submits such a query) may be technically challenging when processing the one or more queries in a tight timeline (e.g., and processing a large number of queries received within a short period of time). These challenges may be amplified when an entity receives a large number of such queries from a large number of different data subjects, each of which may require discovering entirely different instances of data (e.g., data associated with each respective data subject for each respective query) across each of the systems, data sources, etc.

Accordingly, various aspects of the present disclosure overcome many of the technical challenges mentioned above using potentially limited computing resources to retrieve data responsive to various received queries, thereby increasing an efficiency of computing infrastructure used to process data subject access requests. For example, according to particular aspects, a method may involve modifying a prioritization of received data subject access request according to metadata associated with the request (e.g., or metadata associated with a data subject identified by a particular request). In various aspects, computing hardware may then initiate and/or otherwise facilitate processing operations or network communication for retrieving data responsive to a particular request according to a determined prioritization (e.g., across a set of received data subject access requests). In this way, the method may reduce cost (e.g., by reducing a number of simultaneous network communications and processing operations required to fulfill each received data subject access request), increase performance, and otherwise improve an optimization of a use of available computing resources in facilitating fulfillment of various received data subject access requests. In some aspects, the method may improve the computing efficiency of various systems while maintaining satisfaction of particular processing constraints associated with each particular data subject access request (e.g., by ensuring that the prioritization of each data subject access request accounts for such constraints).

Ticket management systems, according to various embodiments, are adapted to receive data subject access requests (DSAR's) from particular data subjects, and to facilitate the timely processing of valid DSAR's by an appropriate respondent and/or computing system. In particular embodiments, the ticket management system receives DSAR's via one or more webforms that each may, for example, respectively be accessed via an appropriate link/button on a respective web page. In other embodiments, the system may receive DSAR's through any other suitable mechanism, such as via a computer software application (e.g., a messaging application such as Slack, Twitter), via a chat bot, via generic API input from another system, or through entry by a representative who may receive the information, for example, via suitable paper forms or over the phone.

The ticket management system may include a webform creation tool that is adapted to allow a user to create customized webforms for receiving DSAR's from various different data subject types and for routing the requests to appropriate individuals for processing. The webform creation tool may, for example, allow the user to specify the language that the form will be displayed in, what particular information is to be requested from the data subject and/or provided by the data subject, who any DSAR's that are received via the webform will be routed to, etc. In particular embodiments, after the user completes their design of the webform, the webform creation tool generates code for the webform that may be cut and then pasted into a particular web page.

The system may be further adapted to facilitate processing of DSAR's that are received via the webforms, or any other suitable mechanism. For example, the ticket management system may be adapted to execute one or more of the following steps for each particular DSAR received via the webforms (or other suitable mechanism) described above: (1) before processing the DSAR, confirm that the DSAR was actually submitted by the particular data subject of the DSAR (or, for example, by an individual authorized to make the DSAR on the data subject's behalf, such as a parent, guardian, power-of-attorney holder, etc.)—any suitable method may be used to confirm the identity of the entity/individual submitting the DSAR—for example, if the system receives the DSAR via a third-party computer system, the system may validate authentication via API secret, or by requiring a copy of one or more particular legal documents (e.g., a particular contract between two particular entities)—the system may validate the identity of an individual by, for example, requiring the individual (e.g., data subject) to provide particular account credentials, by requiring the individual to provide particular out-of-wallet information, through biometric scanning of the individual (e.g., finger or retinal scan), or via any other suitable identity verification technique; (2) if the DSAR was not submitted by the particular data subject, deny the request; (3) if the DSAR was submitted by the particular data subject, advance the processing of the DSAR; (4) route the DSAR to the correct individual(s) or groups internally for handling; (5) facilitate the assignment of the DSAR to one or more other individuals for handling of one or more portions of the DSAR; (6) facilitate the suspension of processing of the data subject's data by the organization; and/or (7) change the policy according to which the data subject's personal data is retained and/or processed by the system. In particular embodiments, the system may perform any one or more of the above steps automatically. The system then generates a receipt for the DSAR request that the user can use as a transactional record of their submitted request.

In particular embodiments, the ticket management system may be adapted to generate a graphical user interface (e.g., a DSAR request-processing dashboard) that is adapted to allow a user (e.g., a privacy officer of an organization that is receiving the DSAR) to monitor the progress of any of the DSAR requests. The GUI interface may display, for each DSAR, for example, an indication of how much time is left (e.g., quantified in days and/or hours) before a legal and/or internal deadline to fulfill the request. The system may also display, for each DSAR, a respective user-selectable indicium that, when selected, may facilitate one or more of the following: (1) verification of the request; (2) assignment of the request to another individual; (3) requesting an extension to fulfill the request; (4) rejection of the request; or (5) suspension of the request.

As noted immediately above, and elsewhere in this application, in particular embodiments, any one or more of the above steps may be executed by the system automatically. As a particular example, the system may be adapted to automatically verify the identity of the DSAR requestor and then automatically fulfill the DSAR request by, for example, obtaining the requested information via a suitable data model and communicating the information to the requestor. As another particular example, the system may be configured to automatically route the DSAR to the correct individual for handling based at least in part on one or more pieces of information provided (e.g., in the webform).

In various embodiments, the system may be adapted to prioritize the processing of DSAR's based on metadata about the data subject of the DSAR. For example, the system may be adapted for: (1) in response to receiving a DSAR, obtaining metadata regarding the data subject; (2) using the metadata to determine whether a priority of the DSAR should be adjusted based on the obtained metadata; and (3) in response to determining that the priority of the DSAR should be adjusted based on the obtained metadata, adjusting the priority of the DSAR.

Examples of metadata that may be used to determine whether to adjust the priority of a particular DSAR include: (1) the type of request; (2) the location from which the request is being made; (3) the country of residency of the data subject and, for example, that county's tolerance for enforcing DSAR violations; (4) current sensitivities to world events; (5) a status of the requestor (e.g., especially loyal customer); or (6) any other suitable metadata.

Exemplary Technical Platforms

As will be appreciated by one skilled in the relevant field, the present invention may be, for example, embodied as a computer system, a method, or a computer program product. Accordingly, various embodiments may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, particular embodiments may take the form of a computer program product stored on a computer-readable storage medium having computer-readable instructions (e.g., software) embodied in the storage medium. Various embodiments may take the form of web-implemented computer software. Any suitable computer-readable storage medium may be utilized including, for example, hard disks, compact disks, DVDs, optical storage devices, and/or magnetic storage devices.

Various embodiments are described below with reference to block diagrams and flowchart illustrations of methods, apparatuses (e.g., systems), and computer program products. It should be understood that each block of the block diagrams and flowchart illustrations, and combinations of blocks in the block diagrams and flowchart illustrations, respectively, can be implemented by a computer executing computer program instructions. These computer program instructions may be loaded onto a general-purpose computer, special-purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus to create means for implementing the functions specified in the flowchart block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner such that the instructions stored in the computer-readable memory produce an article of manufacture that is configured for implementing the function specified in the flowchart block or blocks. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions that execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart block or blocks.

Accordingly, blocks of the block diagrams and flowchart illustrations support combinations of mechanisms for performing the specified functions, combinations of steps for performing the specified functions, and program instructions for performing the specified functions. It should also be understood that each block of the block diagrams and flowchart illustrations, and combinations of blocks in the block diagrams and flowchart illustrations, can be implemented by special purpose hardware-based computer systems that perform the specified functions or steps, or combinations of special purpose hardware and other hardware executing appropriate computer instructions.

Example System Architecture

FIG. 1 is a block diagram of a data subject access request processing and fulfillment system 100 according to a particular embodiment. In various embodiments, the data subject access request processing and fulfillment system is part of a privacy compliance system (also referred to as a privacy management system), or other system, which may, for example, be associated with a particular organization and be configured to aid in compliance with one or more legal or industry regulations related to the collection and storage of personal data.

As may be understood from FIG. 1 , the data subject access request processing and fulfillment system 100 includes one or more computer networks 115, a Data Model Generation Server 110, a Data Model Population Server 120, an Intelligent Identity Scanning Server 130 (which may automatically validate a DSAR requestor's identity), One or More Databases 140 or other data structures, one or more remote computing devices 150 (e.g., a desktop computer, laptop computer, tablet computer, smartphone, etc.), and One or More Third Party Servers 160. In particular embodiments, the one or more computer networks 115 facilitate communication between the Data Model Generation Server 110, Data Model Population Server 120, Intelligent Identity Scanning/Verification Server 130, One or More Databases 140, one or more remote computing devices 150 (e.g., a desktop computer, laptop computer, tablet computer, smartphone, etc.), One or More Third Party Servers 160, and DSAR Processing and Fulfillment Server 170. Although in the embodiment shown in FIG. 1 , the Data Model Generation Server 110, Data Model Population Server 120, Intelligent Identity Scanning Server 130, One or More Databases 140, one or more remote computing devices 150 (e.g., a desktop computer, laptop computer, tablet computer, smartphone, etc.), and One or More Third Party Servers 160, and DSAR Processing and Fulfillment Server 170 are shown as separate servers, it should be understood that in other embodiments, the functionality of one or more of these servers and/or computing devices may, in different embodiments, be executed by a larger or smaller number of local servers, one or more cloud-based servers, or any other suitable configuration of computers.

The one or more computer networks 115 may include any of a variety of types of wired or wireless computer networks such as the Internet, a private intranet, a public switch telephone network (PSTN), or any other type of network. The communication link between the DSAR Processing and Fulfillment Server 170 and the One or More Remote Computing Devices 150 may be, for example, implemented via a Local Area Network (LAN) or via the Internet. In other embodiments, the One or More Databases 140 may be stored either fully or partially on any suitable server or combination of servers described herein.

FIG. 2A illustrates a diagrammatic representation of a computer 200 that can be used within the data subject access request processing and fulfillment system 100, for example, as a client computer (e.g., one or more remote computing devices 150 shown in FIG. 1 ), or as a server computer (e.g., Data Model Generation Server 110 shown in FIG. 1 ). In particular embodiments, the computer 200 may be suitable for use as a computer within the context of the data subject access request processing and fulfillment system 100 that is configured for routing and/or processing DSAR requests and/or generating one or more data models used in automatically fulfilling those requests.

In particular embodiments, the computer 200 may be connected (e.g., networked) to other computers in a LAN, an intranet, an extranet, and/or the Internet. As noted above, the computer 200 may operate in the capacity of a server or a client computer in a client-server network environment, or as a peer computer in a peer-to-peer (or distributed) network environment. The Computer 200 may be a personal computer (PC), a tablet PC, a set-top box (STB), a Personal Digital Assistant (PDA), a cellular telephone, a web appliance, a server, a network router, a switch or bridge, or any other computer capable of executing a set of instructions (sequential or otherwise) that specify actions to be taken by that computer. Further, while only a single computer is illustrated, the term “computer” shall also be taken to include any collection of computers that individually or jointly execute a set (or multiple sets) of instructions to perform any one or more of the methodologies discussed herein.

An exemplary computer 200 includes a processing device 202, a main memory 204 (e.g., read-only memory (ROM), flash memory, dynamic random access memory (DRAM) such as synchronous DRAM (SDRAM) or Rambus DRAM (RDRAM), etc.), static memory 206 (e.g., flash memory, static random access memory (SRAM), etc.), and a data storage device 218, which communicate with each other via a bus 232.

The processing device 202 represents one or more general-purpose processing devices such as a microprocessor, a central processing unit, or the like. More particularly, the processing device 202 may be a complex instruction set computing (CISC) microprocessor, reduced instruction set computing (RISC) microprocessor, very long instruction word (VLIW) microprocessor, or processor implementing other instruction sets, or processors implementing a combination of instruction sets. The processing device 202 may also be one or more special-purpose processing devices such as an application specific integrated circuit (ASIC), a field programmable gate array (FPGA), a digital signal processor (DSP), network processor, or the like. The processing device 202 may be configured to execute processing logic 226 for performing various operations and steps discussed herein.

The computer 120 may further include a network interface device 208. The computer 200 also may include a video display unit 210 (e.g., a liquid crystal display (LCD) or a cathode ray tube (CRT)), an alphanumeric input device 212 (e.g., a keyboard), a cursor control device 214 (e.g., a mouse), and a signal generation device 216 (e.g., a speaker).

The data storage device 218 may include a non-transitory computer-accessible storage medium 230 (also known as a non-transitory computer-readable storage medium or a non-transitory computer-readable medium) on which is stored one or more sets of instructions (e.g., software instructions 222) embodying any one or more of the methodologies or functions described herein. The software instructions 222 may also reside, completely or at least partially, within main memory 204 and/or within processing device 202 during execution thereof by computer 200—main memory 204 and processing device 202 also constituting computer-accessible storage media. The software instructions 222 may further be transmitted or received over a network 115 via network interface device 208.

While the computer-accessible storage medium 230 is shown in an exemplary embodiment to be a single medium, the term “computer-accessible storage medium” should be understood to include a single medium or multiple media (e.g., a centralized or distributed database, and/or associated caches and servers) that store the one or more sets of instructions. The terms “computer-accessible storage medium”, “computer-readable medium”, and like terms should also be understood to include any medium that is capable of storing, encoding or carrying a set of instructions for execution by the computer and that cause the computer to perform any one or more of the methodologies of the present invention. These terms should accordingly be understood to include, but not be limited to, solid-state memories, optical and magnetic media, etc.

Systems for Managing Data Subject Access Requests

In various embodiments, the system may include a ticket management system and/or other systems for managing data subject access requests. In operation, the system may use one or more computer processors, which are operatively coupled to memory, to execute one or more software modules (which may be included in the Instructions 222 referenced above) such as: (1) a DSAR Request Routing Module 1000; and (4) a DSAR Prioritization Module. An overview of the functionality and operation of each of these modules is provided below.

Data Subject Access Request Routing Module 1000

As shown in FIG. 2B, a Data Subject Access Request Routing Module 1000, according to particular embodiments, is adapted for executing the steps of: (1) at Step 1050, presenting, by at least one computer processor, a first webform on a first website, the first webform being adapted to receive data subject access requests and to route the requests to a first designated individual (e.g., an individual who is associated with a first sub-organization of a particular organization—e.g., an employee of the first sub-organization) for processing (in various embodiments, “presenting a webform on a website” may comprise, for example: (A) providing a button, link, or other selectable indicum on the website that, when selected, causes the system to display the webform, or (B) displaying the webform directly on the website); (2) at Step 1100 presenting, by at least one computer processor, a second webform on a second website, the second webform being adapted to receive data subject access requests and to route the requests to a second designated individual (e.g., an individual who is associated with a second sub-organization of a particular organization—e.g., an employee of the second sub-organization) for processing; (3) at Step 1150, receiving, by at least one computer processor, via the first webform, a first data subject access request; (4) at Step 1200, at least partially in response to the receiving the first data subject access request, automatically routing the first data subject access request to the first designated individual for handling; (5) at Step 1250, at least partially in response to the receiving the second data subject access request, automatically routing the second data subject access request to the second designated individual for handling; and (6) at Step 1300, communicating, via a single user interface, a status of both the first data subject access request and the second data subject access request.

In particular embodiments: (1) the first website is a website of a first sub-organization of a particular parent organization; (2) the second website is a website of a second sub-organization of the particular parent organization; and (3) the computer-implemented method further comprises communicating, by at least one computer processor, via a single user interface, a status of each of said first data subject access request and said second data subject access request (e.g., to an employee of—e.g., privacy officer of—the parent organization). As discussed in more detail below, this single user interface may display an indication, for each respective one of the first and second data subject access requests, of a number of days remaining until a deadline for fulfilling the respective data subject access request.

In certain embodiments, the single user interface is adapted to facilitate the deletion or assignment of multiple data subject access requests to a particular individual for handling in response to a single command from a user (e.g., in response to a user first selecting multiple data subject access requests from the single user interface and then executing an assign command to assign each of the multiple requests to a particular individual for handling).

In particular embodiments, the system running the Data Subject Access Request Routing Module 1000, according to particular embodiments, may be adapted for, in response to receiving each data subject access request, generating an ID number (e.g., a transaction ID or suitable Authentication Token) for the first data subject access request, which may be used later, by the DSAR requestor, to access information related to the DSAR, such as personal information requested via the DSAR, the status of the DSAR request, etc. To facilitate this, the system may be adapted for receiving the ID number from an individual and, at least partially in response to receiving the ID number from the individual, providing the individual with information regarding status of the data subject access request and/or information previously requested via the data subject access request.

In particular embodiments, the system may be adapted to facilitate the processing of multiple different types of data subject access requests. For example, the system may be adapted to facilitate processing: (1) requests for all personal data that an organization is processing for the data subject (a copy of the personal data in a commonly used, machine-readable format); (2) requests for all such personal data to be deleted; (3) requests to update personal data that the organization is storing for the data subject; (4) requests to opt out of having the organization use the individual's personal information in one or more particular ways (e.g., per the organization's standard business practices), or otherwise change the way that the organization uses the individual's personal information; and/or (5) the filing of complaints.

In particular embodiments, the system may execute one or more steps (e.g., any suitable step or steps discussed herein) automatically. For example, the system may be adapted for: (1) receiving, from the first designated individual, a request to extend a deadline for satisfying the first data subject access request; (2) at least partially in response to receiving the extension request, automatically determining, by at least one processor, whether the requested extension complies with one or more applicable laws or internal policies; and (3) at least partially in response to determining that the requested extension complies with the one or more applicable laws or internal policies, automatically modifying the deadline, in memory, to extend the deadline according to the extension request. The system may be further adapted for, at least partially in response to determining that the requested extension does not comply with the one or more applicable laws or internal policies, automatically rejecting the extension request. In various embodiments, the system may also, or alternatively, be adapted for: (1) at least partially in response to determining that the requested extension does not comply with the one or more applicable laws or internal policies, automatically modifying the length of the requested extension to comply with the one or more applicable laws or internal policies; and (2) automatically modifying the deadline, in memory, to extend the deadline according to the extension request.

In various embodiments, the system may be adapted for: (1) automatically verifying an identity of a particular data subject access requestor placing the first data subject access request; (2) at least partially in response to verifying the identity of the particular data subject access requestor, automatically obtaining, from a particular data model, at least a portion of information requested in the first data subject access request; and (3) after obtaining the at least a portion of the requested information, displaying the obtained information to a user as part of a fulfillment of the first data subject access request. The information requested in the first data subject access request may, for example, comprise at least substantially all (e.g., most or all) of the information regarding the first data subject that is stored within the data model.

In various embodiments, the system is adapted for: (1) automatically verifying, by at least one computer processor, an identity of a particular data subject access requestor placing the first data subject access request; and (2) at least partially in response to verifying the identity of the particular data subject access requestor, automatically facilitating an update of personal data that an organization associated with the first webform is processing regarding the particular data subject access requestor.

Similarly, in particular embodiments, the system may be adapted for: (1) automatically verifying, by at least one computer processor, an identity of a particular data subject access requestor placing the first data subject access request; and (2) at least partially in response to verifying the identity of the particular data subject access requestor, automatically processing a request, made by the particular data subject access requestor, to opt out of having the organization use the particular data subject access requestor's personal information in one or more particular ways.

The system may, in various embodiments, be adapted for: (1) providing, by at least one computer processor, a webform creation tool that is adapted for receiving webform creation criteria from a particular user, the webform creation criteria comprising at least one criterion from a group consisting of: (A) a language that the form will be displayed in; (B) what information is to be requested from data subjects who use the webform to initiate a data subject access request; and (C) who any data subject access requests that are received via the webform will be routed to; and (2) executing the webform creation tool to create both the first webform and the second webform.

In light of the discussion above, although the Data Subject Access Request Routing Module 1000 is described as being adapted to, in various embodiments, route data subject access requests to particular individuals for handling, it should be understood that, in particular embodiments, this module may be adapted to process at least part of, or all of, particular data subject access requests automatically (e.g., without input from a human user). In such cases, the system may or may not route such automatically-processed requests to a designated individual for additional handling or monitoring. In particular embodiments, the system may automatically fulfill all or a portion of a particular DSAR request, automatically assign a transaction ID and/or authentication token to the automatically fulfilled transaction, and then display the completed DSAR transaction for display on a system dashboard associated with a particular responsible individual that would otherwise have been responsible for processing the DSAR request (e.g., an individual to whom the a webform receiving the DSAR would otherwise route DSAR requests). This may be helpful in allowing the human user to later track, and answer any questions about, the automatically-fulfilled DSAR request.

It should also be understood that, although the system is described, in various embodiments, as receiving DSAR requests via multiple webforms, each of which is located on a different website, the system may, in other embodiments, receive requests via only a single webform, or through any other suitable input mechanism other than a webform (e.g., through any suitable software application, request via SMS message, request via email, data transfer via a suitable API, etc.)

In various embodiments, the system may be adapted to access information needed to satisfy

DSAR requests via one or more suitable data models. Such data models include those that are described in greater detail in U.S. patent application Ser. No. 15/996,208, filed Jun. 1, 2018, which, as noted above, is incorporated herein by reference. In various embodiments, the system is adapted to build and access such data models as described in this earlier-filed U.S. patent application.

As an example, in fulfilling a request to produce, modify, or delete, any of a data subject's personal information that is stored by a particular entity, the system may be adapted to access a suitable data model to identify any personal data of the data subject that is currently being stored in one or more computer systems associated with the particular entity. After using the data model to identify the data, the system may automatically process the data accordingly (e.g., by modifying or deleting it, and/or sharing it with the DSAR requestor).

DSAR Prioritization Module

A DSAR Prioritization Module, according to various embodiments, is adapted for (1) executing the steps of receiving a data subject access request; (2) at least partially in response to receiving the data subject access request, obtaining metadata regarding a data subject of the data subject access request; (3) using the metadata to determine whether a priority of the DSAR should be adjusted based on the obtained metadata; and (4) in response to determining that the priority of the DSAR should be adjusted based on the obtained metadata, adjusting the priority of the DSAR.

The operation of various embodiments of the various software modules above is described in greater detail below. It should be understood that the various steps described herein may be executed, by the system, in any suitable order and that various steps may be omitted, or other steps may be added in various embodiments.

Operation of Example Implementation

FIGS. 3-43 are screen shots that demonstrate the operation of a particular embodiment. FIGS. 3-6 show a graphical user interface (GUI) of an example webform construction tool. FIG. 3 shows a user working to design a webform called “Web_form_1”. As may be understood from the vertical menu shown on the left-hand side of the screen, the webform construction tool allows users to design a webform by: (1) specifying the details of the form (via the “Form Details” tab); (2) defining the fields that will be displayed on the webform (via the “Webform Fields” tab); (3) defining the styling of the webform (via the “Form Styling” tab); and (4) defining various settings associated with the webform (via the “Settings” tab). As shown in FIGS. 4-6 , the user may also specify text to be displayed on the webform (e.g., via a “Form Text” tab).

FIG. 4 shows that, by selecting the “Form Details” tab, the user may define which answers a requestor will be able to specify on the webform in response to prompts for information regarding what type of individual they are (customer, employee, etc.) and what type of request they are making via the webform. Example request types include: (1) a request for all personal data that an organization is processing for the data subject (a copy of the personal data in a commonly used, machine-readable format); (2) a request for all such personal data to be deleted; (3) a request to update personal data that the organization is storing for the data subject; (4) a request to opt out of having the organization use the individual's personal information in one or more particular ways (e.g., per the organization's standard business practices); (5) file a complaint; and/or (6) other.

FIG. 5 shows that, by selecting the “Settings” tab, the user may specify various system settings, such as whether Captcha will be used to verify that information is being entered by a human, rather than a computer.

FIG. 6 shows that, by selecting the Form Styling tab, the user may specify the styling of the webform. The styling may include, for example: (1) a header logo; (2) header height; (3) header color; (4) body text color; (5) body text size; (6) form label color; (7) button color; (8) button text color; (9) footer text color; (10) footer text size; and/or any other suitable styling related to the webform.

In other embodiments, the system is configured to enable a user to specify, when configuring a new webform, what individual at a particular organization (e.g., company) will be responsible for responding to requests made via the webform. The system may, for example, enable the user to define a specific default sub-organization (e.g., within the organization) responsible for responding to DSAR's submitted via the new webform. As such, the system may be configured to automatically route a new DSAR made via the new webform to the appropriate sub-organization for processing and fulfillment. In various embodiments, the system is configured to route one or more various portions of the DSAR to one or more different sub-organizations within the organization for handling.

In particular embodiments, the system may include any suitable logic for determining how the webform routes data subject access requests. For example, the system may be adapted to determine which organization or individual to route a particular data subject access request to based, at least in part, on one or more factors selected from a group consisting of: (1) the data subject's current location; (2) the data subject's country of residence; (3) the type of request being made; (4) the type of systems that contain (e.g., store and/or process) the user's personal data (e.g., in ADP, Salesforce, etc.); or any other suitable factor.

In particular embodiments, the system is configured to enable a user generating webforms to assign multiple webforms to multiple different respective suborganizations within an organization. For example, an organization called ACME, Inc. may have a website for each of a plurality of different brands (e.g., sub-organizations) under which ACME sells products (e.g., UNICORN Brand T-shirts, GRIPP Brand Jeans, etc.). As may be understood in light of this disclosure, each website for each of the particular brands may include an associated webform for submitting DSAR's (either a webform directly on the web site, or one that is accessible via a link on the website). Each respective webform may be configured to route a DSAR made via its associated brand website to a particular sub-organization and/or individuals within ACME for handling DSAR's related to the brand.

As noted above, after the user uses the webform construction tool to design a particular webform for use on a particular web page, the webform construction tool generates code (e.g., HTML code) that may be pasted into the particular web page to run the designed webform page. In particular embodiment, when pasted into the particular web page, the code generates a selectable button on the web page that, when selected, causes the system to display a suitable DSAR request webform.

FIG. 7 shows the privacy webpage of a company (e.g., the ACME corporation). As shown in this figure, a requestor may submit a DSAR by selecting a “Submit a Privacy Related Request” button on the web page.

FIG. 8 shows a webform that is displayed after a requestor selects the “Submit a Privacy Related Request” button on the privacy webpage of FIG. 7 . As may be understood from this figure, the requestor may complete the webform by specifying which type of user they are, and what type of request they are making. The webform also asks the requestor to provide enough personal information to confirm their identity (e.g., and fulfill the request). As shown in this figure, the system may prompt a user submitting a DSAR to provide information for the user such as, for example: (1) what type of requestor the user is (e.g., employee, customer, etc.); (2) what the request involves (e.g., requesting info, opting out, deleting data, updating data, etc.); (3) first name; (4) last name; (5) email address; (6) telephone number; (7) home address; (8) one or more other pieces of identifying information; and/or (9) one or more details associated with the request. FIG. 9 shows an example populated version of the webform.

As shown in FIG. 10 , after a requestor completes the webform and selects a “submit” indicia, the system displays a message to the requestor indicating that their DSAR has been successfully submitted. The system also displays a Request ID associated with the request. In response to the requestor successfully submitting the request, the system may also send an email (or other suitable communication) to the requestor confirming the request. An example of a suitable confirmation email is shown in FIG. 11 .

In various embodiments, the system includes a dashboard that may be used by various individuals within an organization (e.g., one or more privacy officers of an organization) to manage multiple DSAR requests. As discussed above, the dashboard may display DSAR's submitted, respectively, to a single organization, any of multiple different sub-organizations (divisions, departments, subsidiaries etc.) of a particular organization, and/or any of multiple independent organizations. For example, the dashboard may display a listing of DSAR's that were submitted from a parent organization and from the parent organization's U.S. and European subsidiaries. This may be advantageous, for example, because it may allow an organization to manage all DSAR requests of all of its sub-organizations (and/or other related organizations) centrally.

FIGS. 12-23, 25-27, 29-34, and 41-43 depict various example user-interface screens of a DSAR request-management dashboard. As may be understood from FIG. 12 , after an appropriate user (e.g., a privacy officer associated with a particular organization) logs into the system, the system may display a Data Subject Request Queue that may, for example, display a listing of all data subject access requests that the appropriate individual has been designated to process. As shown in FIG. 12 , each data subject access request may be represented by a respective row of information that includes: (1) an ID number for the request; (2) the name of the data subject who has submitted the request; (3) the status of the request; (4) the number of days that are left to respond to the request (e.g., according to applicable laws and/or internal procedures); (5) an indication as to whether the deadline to respond to the request has been extended; (6) a creation date of the request; (7) an indication of the type of requestor that submitted the request (customer, employee, etc.); (8) the name of the individual who has been assigned to process the request (e.g., the respondent). This screen may also include selectable “Edit” and “Filter” buttons that respectively facilitate acting on and filtering the various requests displayed on the page.

As shown in FIG. 13 , in response to a respondent selecting the edit button while a particular DSAR is highlighted, the system displays a dropdown menu allowing the respondent to select between taking the following actions: (1) verify the request; (2) assign the request to another individual; (3) request an extension; (4) reject the request; or (5) suspend the request.

FIGS. 14 and 15 show a message that the system displays to the respondent in response to the respondent selecting the “verify” option. As shown in this figure, the system prompts the respondent to indicate whether they are sure that they wish to authenticate the request. The system also presents an input field where the respondent can enter text to be displayed to the requestor along with a request for the requestor to provide information verifying that they are the data subject associated with the request. After the respondent populates the input field, they may submit the request by selecting a “Submit” button.

In particular embodiments, the input field may enable the respondent to provide one or more supporting reasons for a decision, by the respondent, to authenticate the request. The respondent may also upload one or more supporting documents (such as an attachment). The supporting documents or information may include, for example, one or more documents utilized in confirming the requestor's identity, etc.

In response to the respondent selecting the Submit button, the system changes the status of the request to “In Progress” and also changes the color of the request's status from orange to blue (or from any other suitable color to any different suitable color)—see FIG. 16 . The system also generates and sends a message (e.g., an electronic or paper message) to the requestor asking them to submit information verifying the request. The message may include the text that the respondent entered in the text box of FIGS. 14 .

As shown in FIGS. 17-19 , in response to a respondent selecting the “Edit” button and then selecting the “Assign” indicia from the displayed dropdown menu, the system displays a Request Assignment interface that allows a respondent to indicate who the request should be assigned to. For example, the respondent may indicate that they will be handling the request, or assign the request to another suitable individual, who may, for example, then be designated as the respondent for the request. If the respondent assigns the request to another individual for handling, the respondent may also provide an email address or other correspondence information for the individual. The Request Assignment interface includes a comment box for allowing a respondent to add a message to the individual that the assignment will be assigned to regarding the assignment. In response to the respondent selecting the “Assign” button, the system assigns the request to the designated individual for handling. If the request has been assigned to another, designated individual, the system automatically generates and sends a message (e.g., an electronic message such as an email or SMS message) to the designated individual informing them of the assignment.

As shown in FIGS. 20-22 , in response to a respondent selecting the “Edit” button and then selecting the “Reject” indicia from the displayed dropdown menu, the system displays a Reject Request interface. This interface includes a comment box for allowing a respondent to add a message to the requestor as to why the request was rejected. In response to the respondent selecting the “Submit” button, the system changes the status of the request to “Rejected” and changes the color of the request's status indicator to red (See FIG. 23 ). The system may also automatically generate a message (e.g., an electronic or paper message) to the requestor notifying them that their request has been rejected and displaying the text that the respondent entered into the Reject Request interface of FIG. 22 . An example of such a message is shown in FIG. 24 .

As shown in FIGS. 25-26 , in response to a respondent selecting the “Edit” button and then selecting the “Request Extension” indicia from the displayed dropdown menu, the system displays a Request Extension interface. This includes a text box for allowing a user to indicate the number of days for which they would like to extend the current deadline for responding to the request. For example, the dialog box of FIG. 26 shows the respondent requesting that the current deadline be extended by 90 days. In response to the respondent entering a desired extension duration and selecting the “Submit” button, the system updates the deadline in the system's memory (e.g., in an appropriate data structure) to reflect the extension. For instance, in the example of FIG. 26 , the system extends the deadline to be 90 days later than the current deadline. As shown in FIG. 27 , the system also updates the “Days Left to Respond” field within the Data Subject Request Queue to reflect the extension (e.g., from 2 days from the current date to 92 days from the current date). As shown in FIG. 28 , the system may also generate an appropriate message (e.g., an electronic, such as an email, or a paper message) to the requestor indicating that the request has been delayed. This message may provide a reason for the delay and/or an anticipated updated completion date for the request.

In particular embodiments, the system may include logic for automatically determining whether a requested extension complies with one or more applicable laws or internal policies and, in response, either automatically grant or reject the requested extension. For example, if the maximum allowable time for replying to a particular request is 90 days under the controlling laws and the respondent requests an extension that would result in the fulfillment of the request 91 or more days from the date that the request was submitted, the system may automatically reject the extension request. In various embodiments, the system may also communicate, to the respondent (e.g., via a suitable electronic message or text display on a system user interface) an explanation as to why the extension request was denied, and/or a maximum amount of time (e.g., a maximum number of days) that the deadline may be extended under the applicable laws or policies. In various embodiments, if the system determines that the requested extension is permissible under the applicable laws and/or policies, the system may automatically grant the extension.

In other embodiments, the system may be configured to automatically modify a length of the requested extension to conform with one or more applicable laws and/or policies. For example, if the request was for a 90-day extension, but only a 60 day extension is available under the applicable laws or regulations, the system may automatically grant a 60-day extension rather than a 90 day extension. The system may be adapted to also automatically generate and transmit a suitable message (e.g., a suitable electronic or paper communication) notifying them of the fact that the extension was granted for a shorter, specified period of time than requested.

As shown in FIGS. 29-34 , a respondent may obtain additional details regarding a particular request by selecting (e.g., clicking on) the request on the Data Subject Request Queue screen. For example, FIG. 30 shows a Data Subject Request Details screen that the system displays in response to a respondent selecting the “Donald Blair” request on the user interface screen of FIG. 35 . As shown in FIG. 30 , the Data Subject Request Details screen shows all correspondence between the organization and the requesting individual regarding the selected data subject access request. As may be understood from FIG. 31 , when a respondent selects a particular correspondence (e.g., email), the system displays the correspondence to the respondent for review or other processing.

As shown in FIG. 32 , in various embodiments, the system may provide a selectable

“Reply” indicia that allows the respondent to reply to particular correspondence from an individual. As may be understood from this figure, in response to the respondent selecting the “Reply” indicia, the system may display a dropdown menu of various standard replies. For example, the dropdown menu may provide the option of generating a reply to the requestor indicating that the request has been rejected, is pending, has been extended, or that the request has been completed.

As shown in FIG. 33 , in response to the respondent selecting “Reply as Completed”, the system may generate a draft email to the requestor explaining that the request has been completed. The respondent may then edit this email and send the edited correspondence (e.g., via email) to the requestor by selecting a “Send as Complete” indicia. As shown in FIG. 34 , the system may, in response, display an indicator adjacent the correspondence indicating that the correspondence included a reply indicating that the request was complete. This may be useful in allowing individuals to understand the contents of the correspondence without having to open it.

FIG. 35 shows an example email automatically generated by the system in response to the respondent selecting “Reply as Completed” on the screen shown in FIG. 32 . As shown in FIG. 35 , the correspondence may include a secure link that the requestor may select to access the data that was requested in the DSAR. In particular embodiments, the link is a link to a secure website, such as the website shown in FIG. 36 , that provides access to the requested data (e.g., by allowing a user to download a .pdf file, or other suitable file, that includes the requested data). As shown in FIG. 36 , the website may require multiple pieces of data to verify that the requestor is permitted to access the site. For example, in order to access the website, the requestor may be required to provide both the unique ID number of the request, and an authentication token, which the system may send to the user via email—See FIGS. 37 and 38 .

FIGS. 39-43 are computer screen shots that depict additional user interfaces according to various embodiments.

Additional Concepts

Intelligent Prioritization of DSAR's

In various embodiments, the system may be adapted to prioritize the processing of DSAR's based on metadata about the data subject of the DSAR. For example, the system may be adapted for: (1) in response to receiving a DSAR, obtaining metadata regarding the data subject; (2) using the metadata to determine whether a priority of the DSAR should be adjusted based on the obtained metadata; and (3) in response to determining that the priority of the DSAR should be adjusted based on the obtained metadata, adjusting the priority of the DSAR.

Examples of metadata that may be used to determine whether to adjust the priority of a particular DSAR include: (1) the type of request, (2) the location from which the request is being made, (3) current sensitivities to world events, (4) a status of the requestor (e.g., especially loyal customer), or (5) any other suitable metadata.

In various embodiments, in response to the system determining that the priority of a particular DSAR should be elevated, the system may automatically adjust the deadline for responding to the DSAR. For example, the system may update the deadline in the system's memory and/or modify the “Days Left to Respond” field (See FIG. 13 ) to include a fewer number of days left to respond to the request. Alternatively, or in addition, the system may use other techniques to convey to a respondent that the request should be expedited (e.g., change the color of the request, send a message to the respondent that they should process the request before non-prioritized requests, etc.)

In various embodiments, in response to the system determining that the priority of a particular DSAR should be lowered, the system may automatically adjust the deadline for responding to the DSAR by adding to the number of days left to respond to the request.

Various aspects of the present disclosure overcome many of the technical challenges mentioned above related to processing data subject access requests using limited computing resources. In particular, various aspects may increase an optimization of using potentially limited computing resources to retrieve data responsive to various received queries, thereby increasing an efficiency of computing infrastructure used to process data subject access requests. For example, according to particular aspects, a method may involve modifying a prioritization of received data subject access according to metadata associated with the request (e.g., or metadata associated with a data subject identified by a particular request). In various aspects, computing hardware may then initiate and/or otherwise facilitate processing operations or network communication for retrieving data responsive to a particular request according to a determined prioritization (e.g., across a set of received data subject access requests). In this way, the method may reduce cost (e.g., by reducing a number of simultaneous network communications and processing operations required to fulfill each received data subject access request), increase performance, and otherwise improve an optimization of a use of available computing resources in facilitating fulfillment of various received data subject access requests. In some aspects, the method may improve the computing efficiency of various systems while maintaining satisfaction of particular processing constraints associated with each particular data subject access request (e.g., by ensuring that the prioritization of each data subject access request accounts for such constraints).

Automatic Deletion of Data Subject Records Based on Detected Systems

In particular embodiments, in response a data subject submitting a request to delete their personal data from an organization's systems, the system may: (1) automatically determine where the data subject's personal data is stored; and (2) in response to determining the location of the data (which may be on multiple computing systems), automatically facilitate the deletion of the data subject's personal data from the various systems (e.g., by automatically assigning a plurality of tasks to delete data across multiple business systems to effectively delete the data subject's personal data from the systems). In particular embodiments, the step of facilitating the deletion may comprise, for example: (1) overwriting the data in memory; (2) marking the data for overwrite; (2) marking the data as free (e.g., and deleting a directory entry associated with the data); and/or (3) any other suitable technique for deleting the personal data. In particular embodiments, as part of this process, the system uses an appropriate data model (see discussion above) to efficiently determine where all of the data subject's personal data is stored.

Automatic Determination of Business Processes that Increase Chance of Deletion Requests

In various embodiments, the system is adapted to store, in memory, a log of DSAR actions. The system may also store, in memory, additional information regarding the data subjects of each of the requests. The system may use this information, for example, to determine which business processes are most commonly associated with a data subject submitting a request to have their personal information deleted from the organization's systems. The organization may then use this information to revise the identified business processes in an effort to reduce the number of deletion requests issued by data subjects associated with the business processes.

As a particular example, the system may analyze stored information to determine that a high number (e.g., 15%) of all participants in a company's loyalty program submit requests to have their personal information deleted from the company's systems. In response to making this determination, the system may issue an electronic alert to an appropriate individual (e.g., a privacy officer of the company), informing them of the high rate of members of the company's loyalty program issuing personal data delete requests. This alert may prompt the individual to research the issue and try to resolve it.

Automated Data Subject Verification

In various embodiments, before a data subject request can be processed, the data subject's identity may need to be verified. In various embodiments, the system provides a mechanism to automatically detect the type of authentication required for a particular data subject based on the type of Data Subject Access Request being made and automatically issues a request to the data subject to verify their identity against that form of identification. For example, a subject rights request might only require two types of authentication, but a deletion request may require four types of data to verify authentication. The system may automatically detect which is type of authentication is required based on the DSAR and send an appropriate request to the data subject to verify their identity.

Stated more particularly, when processing a data subject access request, the system may be configured to verify an identity of the data subject prior to processing the request (e.g., or as part of the processing step). In various embodiments, confirming the identity of the data subject may, for example, limit a risk that a third-party or other entity may gain unlawful or unconsented to access to the requestor's personal data. The system may, for example, limit processing and fulfillment of requests relating to a particular data subject to requests that are originated by (e.g., received from) the particular data subject. When processing a data subject access request, the system may be configured to use various reasonable measures to verify the identity of the data subject who requests access (e.g., in particular in the context of online services and online identifiers). In particular embodiments, the system is configured to substantially automatically validate an identity of a data subject when processing the data subject access request.

For example, in particular embodiments, the system may be configured to substantially automatically (e.g., automatically) authenticate and/or validate an identity of a data subject using any suitable technique. These techniques may include, for example: (1) one or more credit-based and/or public- or private-information-based verification techniques; (2) one or more company verification techniques (e.g., in the case of a business-to-business data subject access request); (3) one or more techniques involving integration with a company's employee authentication system; (4) one or more techniques involving a company's (e.g., organization's) consumer portal authentication process; (5) etc. Various exemplary techniques for authenticating a data subject are discussed more fully below.

In particular embodiments, when authenticating a data subject (e.g., validating the data subject's identity), the system may be configured to execute particular identity confirmation steps, for example, by interfacing with one or more external systems (e.g., one or more third-party data aggregation systems). For example, the system, when validating a data subject's identity, may begin by verifying that a person with the data subject's name, address, social security number, or other identifying characteristic (e.g., which may have been provided by the data subject as part of the data subject access request) actually exists. In various embodiments, the system is configured to interface with (e.g., transmit a search request to) one or more credit reporting agencies (e.g., Experian, Equifax, TransUnion, etc.) to confirm that a person with one or more characteristics provided by the data subject exists. The system may, for example, interface with such credit reporting agencies via a suitable plugin (e.g., software plugin). Additionally, there might be a verification on behalf of a trusted third-party system (e.g., the controller).

In still other embodiments, the system may be configured to utilize one or more other third-party systems (e.g., such as LexisNexis, IDology, RSA, etc.), which may, for example, compile utility and phone bill data, property deeds, rental agreement data, and other public records for various individuals. The system may be configured to interface with one or more such third-party systems to confirm that a person with one or more characteristics provided by the data subject exists.

After the step of confirming the existence of a person with the one or more characteristics provided by the data subject, the system may be configured to confirm that the person making the data subject access request is, in fact, the data subject. The system may, for example, verify that the requestor is the data subject by prompting the requestor to answer one or more knowledge-based authentication questions (e.g., out-of-wallet questions). In particular embodiments, the system is configured to utilize one or more third-party services as a source of such questions (e.g., any of the suitable third-party sources discussed immediately above). The system may use third-party data from the one or more third-party sources to generate one or more questions. These one or more questions may include questions that a data subject should know an answer to without knowing the question ahead of time (e.g., one or more previous addresses, a parent or spouse name and/or maiden name, etc.).

FIG. 46 depicts an exemplary identity verification questionnaire. As may be understood from this figure, an identity verification questionnaire may include one or more questions whose responses include data that the system may derive from one or more credit agencies or other third-party data aggregation services (e.g., such as previous street addresses, close associates, previous cities lived in, etc.). In particular embodiments, the system is configured to provide these one or more questions to the data subject in response to receiving the data subject access request. In other embodiments, the system is configured to prompt the data subject to provide responses to the one or more questions at a later time (e.g., during processing of the request). In particular other embodiments, the system is configured to substantially automatically compare one or more pieces of information provided as part of the data subject access request to one or more pieces of data received from a third-party data aggregation service in order to substantially automatically verify the requestor's identity.

In still other embodiments, the system may be configured to prompt a requestor to provide one or more additional pieces of information in order to validate the requestor's identity. This information may include, for example: (1) at least a portion of the requestor's social security number (e.g., last four digits); (2) a name and/or place of birth of the requestor's father; (3) a name, maiden name, and/or place of birth of the requestor's mother; and/or (4) any other information which may be useful for confirming the requestor's identity (e.g., such as information available on the requestor's birth certificate). In other embodiments, the system may be configured to prompt the requestor to provide authorization for the company to check the requestor's social security or other private records (e.g., credit check authorization, etc.) to obtain information that the system may use to confirm the requestor's identity. In other embodiments, the system may prompt the user to provide one or more images (e.g., using a suitable mobile computing device) of an identifying document (e.g., a birth certificate, social security card, driver's license, etc.).

The system may, in response to a user providing one or more responses that matches information that the system receives from one or more third-party data aggregators or through any other suitable background, credit, or other search, substantially automatically authenticate the requestor as the data subject. The system may then continue processing the data subject's request, and ultimately fulfill their request.

In particular embodiments, such as embodiments in which the requestor includes a business (e.g., as in a business to business data subject access request), the system may be configured to authenticate the requesting business using one or more company verification techniques. These one or more company validation techniques may include, for example, validating a vendor contract (e.g., between the requesting business and the company receiving the data subject access request); receiving a matching token, code, or other unique identifier provided by the company receiving the data subject access request to the requesting business; receiving a matching file in possession of both the requesting business and the company receiving the data subject access request; receiving a signed contract, certificate (e.g., digital or physical), or other document memorializing an association between the requesting business and the company receiving the data subject access request; and/or any other suitable method of validating that a particular request is actually made on behalf of the requesting business (e.g., by requesting the requesting business to provide one or more pieces of information, one or more files, one or more documents, etc. that may only be accessible to the requesting business).

In other embodiments, the system may be configured to authenticate a request via integration with a company's employee or customer (e.g., consumer) authentication process. For example, in response to receiving a data subject access request that indicates that the data subject is an employee of the company receiving the data subject access request, the system may be configured to prompt the employee to login to the company's employee authentication system (e.g., Okta, Azure, AD, etc.) In this way, the system may be configured to authenticate the requestor based at least in part on the requestor successfully logging into the authentication system using the data subject's credentials. Similarly, in response to receiving a data subject access request that indicates that the data subject is a customer of the company receiving the data subject access request, the system may be configured to prompt the customer to login to an account associated with the company (e.g., via a consumer portal authentication process). In a particular example, this may include, for example, an Apple ID (for data subject access requests received by Apple). In this way, the system may be configured to authenticate the requestor based at least in part on the requestor successfully logging into the authentication system using the data subject's credentials. In some embodiments, the system may be configured to require the requestor to login using two-factor authentication or other suitable existing employee or consumer authentication process.

Data Subject Blacklist

In various embodiments, a particular organization may not be required to respond to a data subject access request that originates (e.g., is received from) a malicious requestor. A malicious requestor may include, for example: (1) a requestor (e.g., an individual) that submits excessive or redundant data subject access requests; (2) a group of requestors such as researchers, professors, students, NGOs, etc. that submit a plurality of requests for reasons other than those reasons provided by policy, law, etc.; (3) a competitor of the company receiving the data subject access request that is submitting such requests to tie up the company's resources unnecessarily; (4) a terrorist or other organization that may spam requests to disrupt the company's operation and response to valid requests; and/or (5) any other request that may fall outside the scope of valid requests made for reasons proscribed by public policy, company policy, or law. In particular embodiments, the system is configured to maintain a blacklist of such malicious requestors.

In particular embodiments, the system is configured to track a source of each data subject access request and analyze each source to identify sources from which: (1) the company receives a large volume of requests; (2) the company receives a large number of repeat requests; (3) etc. These sources may include, for example: (1) one or more particular IP addresses; (2) one or more particular domains; (3) one or more particular countries; (4) one or more particular institutions; (5) one or more particular geographic regions; (6) etc. In various embodiments, in response to analyzing the sources of the requests, the system may identify one or more sources that may be malicious (e.g., are submitting excessive requests).

In various embodiments, the system is configured to maintain a database of the identified one or more sources (e.g., in computer memory). In particular embodiments, the database may store a listing of identities, data sources, etc. that have been blacklisted (e.g., by the system). In particular embodiments, the system is configured to, in response to receiving a new data subject access request, cross reference the request with the blacklist to determine if the requestor is on the blacklist or is making the request from a blacklisted source. The system may then, in response to determining that the requestor or source is blacklisted, substantially automatically reject the request. In particular embodiments, the blacklist cross-referencing step may be part of the requestor authentication (e.g., verification) discussed above. In various embodiments, the system may be configured to analyze request data on a company by company basis to generate a blacklist. In other embodiments, the system may analyze global data (e.g., all data collected for a plurality of companies that utilize the data subject access request fulfillment system) to generate the blacklist.

In particular embodiments, the system may be configured to fulfill data subject access requests for the purpose of providing a data subject with information regarding what data the company collects and for what purpose, for example, so the data subject can ensure that the company is collecting data for lawful reasons. As such, the system may be configured to identify requestors and other sources of data requests that are made for other reasons (e.g., one or more reasons that would not obligate the company to respond to the request). These reasons may include, for example, malicious or other reasons such as: (1) research by an academic institution by one or more students or professors; (2) anticompetitive requests by one or more competitors; (3) requests by disgruntled former employees for nefarious reasons; (4) etc.

In particular embodiments, the system may, for example, maintain a database (e.g., in computer memory) of former employees. In other embodiments, the system may, for example: (1) identify a plurality of IP addresses associated with a particular entity (e.g., academic organization, competitor, etc.); and (2) substantially automatically reject a data subject access request that originates from the plurality of IP addresses. In such embodiments, the system may be configured to automatically add such identified IP addresses and/or domains to the blacklist.

In still other embodiments, the system is configured to maintain a listing of blacklisted names of particular individuals. These may include, for example, one or more individuals identified (e.g., by an organization or other entity) as submitting malicious data subject access requests).

FIG. 47 depicts a queue of pending data subject access requests. As shown in this figure, the first three listed data subject access requests are new and require verification before processing and fulfillment can begin. As shown in this figure, a user (e.g., such as a privacy officer or other privacy controller) may select a particular request, and select an indicia for verifying the request. The user may also optionally select to reject the request. FIG. 48 depicts an authentication window that enables the user to authenticate a particular request. In various embodiments, the user may provide an explanation of why the user is authenticating the request (e.g., because the requestor successfully completed on or more out-of-wallet questions or for any other suitable reason). The user may further submit one or more attachments to support the verification. In this way, the system may be configured to document that the authentication process was performed for each request (e.g., in case there was an issue with improperly fulfilling a request, the company could show that they are following procedures to prevent such improper processing). In other embodiments, the system may enable the user to provide similar support when rejecting a request (e.g., because the requestor was blacklisted, made excessive requests, etc.).

Data Subject Access Request Fulfillment Cost Determination

In various embodiments, as may be understood in light of this disclosure, fulfilling a data subject access request may be particularly costly. In some embodiments, a company may store data regarding a particular data subject in multiple different locations for a plurality of different reasons as part of a plurality of different processing and other business activities. For example, a particular data subject may be both a customer and an employee of a particular company or organization. Accordingly, in some embodiments, fulfilling a data subject access request for a particular data subject may involve a plurality of different information technology (IT) professionals in a plurality of different departments of a particular company or organization. As such, it may be useful to determine a cost of a particular data subject access request (e.g., particularly because, in some cases, a data subject is entitled to a response to their data subject access request as a matter of right at no charge).

In particular embodiments, in response to receiving a data subject access request, the system may be configured to: (1) assign the request to at least one privacy team member; (2) identify one or more IT teams required to fulfill the request (e.g., one or more IT teams associated with one or more business units that may store personal data related to the request); (3) delegate one or more subtasks of the request to each of the one or more IT teams; (4) receive one or more time logs from each individual involved in the processing and fulfillment of the data subject access request; (5) calculate an effective rate of each individual's time (e.g., based at least in part on the individual's salary, bonus, benefits, chair cost, etc.); (6) calculate an effective cost of fulfilling the data subject access request based at least in part on the one or more time logs and effective rate of each of the individual's time; and (7) apply an adjustment to the calculated effective cost that accounts for one or more external factors (e.g., overhead, etc.) in order to calculate a cost of fulfilling the data subject access request.

In particular embodiments, the system is configured to substantially automatically track an amount of time spent by each individual involved in the processing and fulfillment of the data subject access request. The system may, for example, automatically track an amount of time between each individual opening and closing a ticket assigned to them as part of their role in processing or fulfilling the data subject access request. In other embodiments, the system may determine the time spent based on an amount of time provided by each respective individual (e.g., the individual may track their own time and submit it to the system).

In various embodiments, the system is configured to measure a cost of each particular data subject access request received, and analyze one or more trends in costs of, for example: (1) data subject access requests over time; (2) related data subject access requests; (3) etc. For example, the system may be configured to track and analyze cost and time-to-process trends for one or more social groups, one or more political groups, one or more class action groups, etc. In particular, the system may be configured to identify a particular group from which the system receives particularly costly data subject access request (e.g., former and/or current employees, members of a particular social group, members of a particular political group, etc.).

In particular embodiments, the system may be configured to utilize data subject access request cost data when processing, assigning, and/or fulfilling future data subject access requests (e.g., from a particular identified group, individual, etc.). For example, the system may be configured to prioritize requests that are expected to be less costly and time-consuming (e.g., based on past cost data) over requests identified as being likely more expensive. Alternatively, the system may prioritize more costly and time-consuming requests over less costly ones in the interest of ensuring that the system is able to respond to each request in a reasonable amount of time (e.g., within a time required by law, such as a thirty day period, or any other suitable time period).

Customer Satisfaction Integration with Data Subject Access Requests

In various embodiments, the system may be configured to collect customer satisfaction data, for example: (1) as part of a data subject access request submission form; (2) when providing one or more results of a data subject access request to the data subject; or (3) at any other suitable time. In various embodiments, the customer satisfaction data may be collected in the form of a suitable survey, free-form response questionnaire, or other suitable satisfaction data collection format (e.g., thumbs up vs. thumbs down, etc.).

FIG. 49 depicts an exemplary customer satisfaction survey that may be included as part of a data subject access request form, provided along with the results of a data subject access request, provided in one or more messages confirming receipt of a data subject access request, etc. As shown in the figure, the customer satisfaction survey may relate to how likely a customer (e.g., a data subject) is to recommend the company (e.g., to which the data subject has submitted the request) to a friend (e.g., or colleague). In the example shown in FIG. 49 , the satisfaction survey may relate to a Net Promoter score (NPS), which may indicate a loyalty of a company's customer relationships. Generally speaking, the Net Promoter Score may measure a loyalty that exists between a provider and a consumer. In various embodiments, the provider may include a company, employer, or any other entity. In particular embodiments, the consumer may include a customer, employee, or other respondent to an NPS survey.

In particular embodiments, the question depicted in FIG. 49 is the primary question utilized in calculating a Net Promoter Score (e.g., “how likely is it that you would recommend our company/product/service to a friend or colleague?”). In particular embodiments, the question is presented with responses ranging from 0 (not at all likely) to 10 (extremely likely). In particular embodiments, the question may include any other suitable scale. As may be understood from FIG. 49 , the system may be configured to assign particular categories to particular ratings on the 10 point scale. The system may be configured to track and store responses provided by consumers and calculate an overall NPS score for the provider. The system may be further configured to generate a visual representation of the NPS score, including a total number of responses received for each particular score and category as shown in FIG. 49 .

In various embodiments, the system may be configured to measure data related to any other suitable customer satisfaction method (e.g., in addition to NPS). By integrating a customer satisfaction survey with the data subject access request process, the system may increase a number of consumers that provide one or more responses to the customer satisfaction survey. In particular embodiments, the system is configured to require the requestor to respond to the customer satisfaction survey prior to submitting the data subject access request.

CONCLUSION

Although embodiments above are described in reference to various data subject access fulfillment systems, it should be understood that various aspects of the system described above may be applicable to other privacy-related systems, or to other types of systems, in general.

While this specification contains many specific embodiment details, these should not be construed as limitations on the scope of any invention or of what may be claimed, but rather as descriptions of features that may be specific to particular embodiments of particular inventions. Certain features that are described in this specification in the context of separate embodiments may also be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment may also be implemented in multiple embodiments separately or in any suitable sub-combination. Moreover, although features may be described above as acting in certain combinations and even initially claimed as such, one or more features from a claimed combination may in some cases be excised from the combination, and the claimed combination may be directed to a sub-combination or variation of a sub-combination.

Similarly, while operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. In certain circumstances, multitasking and parallel processing may be advantageous. Moreover, the separation of various system components in the embodiments described above should not be understood as requiring such separation in all embodiments, and it should be understood that the described program components and systems may generally be integrated together in a single software product or packaged into multiple software products. In addition, it should be understood that terms such as “in some embodiments”, “in various embodiments”, and “in certain embodiments” are intended to indicate that the stated features may be implemented in any suitable embodiment described herein.

Many modifications and other embodiments of the invention will come to mind to one skilled in the art to which this invention pertains having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the invention is not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for the purposes of limitation. 

What is claimed is:
 1. A method comprising: providing, by computing hardware, a query interface that is accessible via a first data network and is configured for querying a plurality of data storage systems included in a second data network; receiving, by the computing hardware via the query interface and the first data network, a query comprising a data subject access request; responsive to receiving the data subject access request, obtaining, by the computing hardware, metadata regarding at least one of a data subject identified by the data subject access request or the data subject access request; using, by the computing hardware, the metadata to determine whether a priority of the data subject access request should be adjusted based on the metadata; responsive to determining that the priority of the data subject access request should be adjusted based on the metadata, adjusting, by the computing hardware, the priority of the data subject access request; and facilitating, by the computing hardware, execution of processing operations or network communication for retrieving data responsive to the data subject access request from the plurality of data storage systems in the second data network according to the priority.
 2. The method of claim 1, the method further comprising: identifying, by the computing hardware based on the metadata, a processing deadline constraint for the data subject access request; and modifying, by the computing hardware, the priority such that the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in a manner that satisfies the processing deadline constraint.
 3. The method of claim 1, wherein the metadata comprises at least one of a type of the data subject access request, a location of a computing device from which the data subject access request was received, or a status of the data subject.
 4. The method of claim 1, wherein adjusting the priority of the data subject access request comprises facilitating modification of a timing of the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request.
 5. The method of claim 1, wherein using the metadata to determine whether the priority of the data subject access request should be adjusted based on the metadata is further based on computing resources available on the second data network.
 6. The method of claim 1, wherein: the method further comprises: identifying, by the computing hardware based on the metadata, an identity verification constraint for processing the data subject access request; and determining, by the computing hardware based on identifying information associated with the data subject, whether the data subject access request satisfies the identity verification constraint; and facilitating the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in response to determining that the data subject access request satisfies the identify verification constraint.
 7. The method of claim 1, further comprising: generating, by the computing hardware, a graphical user interface and configuring the graphical user interface to include a display element that includes an indication of an adjustment to the priority of the data subject access request; and providing, by the computing hardware, the graphical user interface for display on a computing device.
 8. A system comprising: a non-transitory computer-readable medium storing instructions; and a processing device communicatively coupled to the non-transitory computer-readable medium, wherein, the processing device is configured to execute the instructions and thereby perform operations comprising: providing a query interface that is accessible via a first data network and is configured for querying a plurality of data storage systems included in a second data network; receiving, via the query interface and the first data network, a plurality of queries, the plurality of queries including a set of data subject access requests; obtaining, metadata for each data subject access request in the set of data subject access requests; determining, based on the metadata, a fulfillment prioritization for the set of data subject access requests; and executing processing operations or network communication for retrieving data responsive to each data subject access request in the set of data subject access requests from the plurality of data storage systems in the second data network according to the fulfillment prioritization.
 9. The system of claim 8, wherein: the operations further comprise identifying, for each data subject access request in the set of data subject access requests, a respective fulminant constraint; and determining the fulfillment prioritization for the set of data subject access requests comprises determining the fulfillment prioritization such that the respective fulminant constraint is satisfied when executing the processing operations or the network communication for retrieving the data responsive to each data subject access request in the set of data subject access requests from the plurality of data storage systems in the second data network according to the fulfillment prioritization.
 10. The system of claim 9, wherein each fulfillment constraint comprises at least one of a processing deadline constraint or an identity verification constraint.
 11. The system of claim 8, wherein the metadata comprises at least one of a type of each data subject access request in the set of data subject access request, a location of each respective computing device from which the plurality of queries were received, or a respective status of each data subject identified by each data subject access request in the set of data subject access requests.
 12. The system of claim 8, wherein determining the fulfillment prioritization for the set of data subject access requests comprises determining the fulfillment prioritization based on computing resources available on the second data network.
 13. The system of claim 12, wherein executing the processing operations or the network communication for retrieving the data responsive to each data subject access request in the set of data subject access requests from the plurality of data storage systems in the second data network according to the fulfillment prioritization comprises timing the execution of the processing operations or the network communication based on the fulfillment prioritization and the computing resources available on the second data network.
 14. The system of claim 8, wherein the operations further comprise: generating a graphical user interface and configuring the graphical user interface to include a display element that includes an indication of the fulfillment prioritization for the set of data subject access requests; and providing the graphical user interface for display on a computing device.
 15. A method comprising: receiving, by computing hardware, a data subject access request; in response to receiving the data subject access request, obtaining, by the computing hardware, metadata regarding a data subject of the data subject access request; determining, by the computing hardware, whether a priority of the data subject access request should be adjusted based on the metadata; in response to determining that the priority of the data subject access request should be adjusted based on the metadata, adjusting, by the computing hardware, the priority of the data subject access request; and facilitating, by the computing hardware, execution of processing operations or network communication for retrieving data responsive to the data subject access request from a plurality of data storage systems according to the priority.
 16. The method of claim 15, wherein the metadata comprises at least one of a type of the data subject access request, a location of a computing device from which the data subject access request was received, or a status of the data subject.
 17. The method of claim 15, further comprising: identifying, by the computing hardware based on the metadata, a processing deadline constraint for the data subject access request; and modifying, by the computing hardware, the priority such that the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in a manner that satisfies the processing deadline constraint.
 18. The method of claim 15, wherein: the method further comprises: identifying, by the computing hardware based on the metadata, an identity verification constraint for processing the data subject access request; and determining, by the computing hardware based on identifying information associated with the data subject, whether the data subject access request satisfies the identity verification constraint; and facilitating the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request occurs in response to determining that the data subject access request satisfies the identify verification constraint.
 19. The method of claim 15, wherein adjusting the priority of the data subject access request comprises facilitating modification of a timing of the execution of the processing operations or the network communication for retrieving the data responsive to the data subject access request relative to second processing operations or second network communication for retrieving second data response to a second data subject access request.
 20. The method of claim 15, further comprising: generating, by the computing hardware, a graphical user interface and configuring the graphical user interface to include a display element that includes an indication of an adjustment to the priority of the data subject access request; and providing, by the computing hardware, the graphical user interface for display on a computing device. 